Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, Model “Panther” distinct patterned side red and green lenses. These lamps were also known as acetylene gas lamps. They work off a chemical reaction between calcium carbide and water.Model 75flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, marine pattern burner housing and reflector missing Carbide Lamp, metal. Has plate for attaching to wall, & gimbal to allow lamp to remain vertical. Noneflagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting, marine lighting

Candle stick manufacturing moulds were extensively used throughout the Kiewa Valley and its regions to provide rural homes and businesses with illumination during times of limited light e.g. night time. These candles were used before the Kiewa Valley was placed of the electrical grid. The candles were made from parrafin wax. Before the 1920"s electricity was in limited supply due to the inability of the private electricity suppliers to service isolated rural regions. It was not until the Victorian State Government passed legislation (1920) to improve electricity supplies by forming the State Electricity Commission of Victoria (S.E.C.V.) Isolated rural communities could not meet the higher costs to have electricity supplies connected and therefore it was not until the 1950's that adequate domestic electrical power could be supplied.The isolation that the Kiewa Valley provided was of a greater hindrance to any utility (power,roads & telephone) where the cost per instillation was beyond the rural population's ability to pay either directly or indirectly. One of the benefits that the "closed" community of Mount Beauty had, when it was administered by the SECV was that some utility costs were a lot lower than that of the other settlements in the Kiewa Valley. This disparity led to a conference in 1928 of the rural and regional councils to demand from the Government an equality of electricity tariffs. This equality did not take place until 1965. The demand and usage of cheaper and affordable lighting that wax candles provided was for some rural families a way of life until the mid 1900's.This candle making mould is made from mild rolled sheet steel(tin). The top basin is rectangular in shape with beveled edges(facing in on all sides. There are six holes in the top basin for vertical hollow tubes to feed off. The six tapered cyclindrical tubes running from the top basin to the bottom raised platform base. All connections are welded together. The bottom of each cylinder has an opening for the candle wick. The wick is positioned in place before the molten wax is poured into the cylinders. A positioning ring has been welded to one bottom ring for stability.parrafin wax, candles, domestic household ighting

ESCo Employee Hours Work Record book that has been used by an ESCo/SEC inspector, H. P. James as a record / note book for his personal collection or papers or journal titled "In Other Days". Book sewn with string in 36 page sections, blank end papers, board covers with stipple paper out sides and Rexene cloth binding. Comprising plain paper end papers and 104 printed pages (52 leaves), with each sheet printed in black on feint ruled paper for recording the hours worked and other details of drivers and conductors employed by ESCo. Printed for daily use, with Day and date page headings - made out for the 1930's. Text generically printed feint ruled paper. Images: Book - i1 Inside front cover - i2 Members Certificate - i3 Photo of H.P. James and index page - i4 Has been used to gather mementos such as photos, articles, newspaper clippings, letters and other miscellaneous documents on Ballarat local history. Newspaper cuttings etc often have side notes written by Mr. James. Inside front cover has certificate recording Mr. James membership to the Ballarat Historical Society (on Australasian Historical Record Society paper) for 1937 - 1938. A side note records Mr. James elected as Vice President in 1939. Receipt signed by Edward Crimmins (See Reg. Item 2486) Has a table of contents for pages 1 to 65. Opposite is a photograph of Mr. James dressed for the Ballarat Tramways Social Club function - See Reg. Item No. 506 Primary items are: 1 - Newspaper cutting "A stroll along Bridge St. 50 years ago" - Nathan F. Speilvogel. 3 - Newspaper cutting "What I Remember of Early Ballarat" - James Sainsberry. 4 - Newspaper cutting "Magnet that Made Ballarat - New Monument Marks Gold Discovery" 7 - Newspaper cutting "Romance of a Ballarat Street Block" - Speilvogel 9 - Newspaper cutting "Sixty years of Dana St. School"- Speilvogel 11 - Newspaper cutting "The White Flat - its Transitions of Service - Historical Review" - J. Hargreaves 15 - Newspaper cutting "Memories of Russell Square - Fireman's Carnivals" - James 16 - Notes on the Alfred Hall 17 - Newspaper cutting - "Alfred Hall" - James 21 - Letter re Russell Square dated 24/2/38, J. McLeish 23 - Newspaper cutting "The First Train to Ballarat" 25 - Newspaper cutting "Story of Ballarat's Horse Trams 1887 to 1913", James - see Reg. Item 2489. 27 - Photos and Newspaper cutting of items re horse trams, and photo of ESCo No. 18 - See Reg. Items 2490, 2491 and 2492. 28 - ESCo opening ticket (See other Reg. Items 608 for examples of this) ticket No. 1595. 29 - Newspaper cutting "Story of Ballarat's Electric Trams", James, See Reg. Item 2493. 30 - Poster - SEC - Ballarat "The New System of Fares and Sections" - 3/10/1997 - See Reg. Item 2494. SEC - Tourist Ticket - See Reg. Item 2495 ESCo - 3d check ticket - See Reg. Item 2496 31 - Tickets and handwritten notes - with reference to page 51 ESCo 1d - See Reg. Item 2497 (2 No.) ESCo/SEC? - lunch hour weekly ticket - See Reg. Item 2498 ESCo/SEC? - Morning and evening weekly ticket - See Reg. Item 2499 ESCo/SEC? - 3d Adult Transfer - See Reg. Item 2500 ESCo/SEC? - 2d child Transfer - See Reg. Item 2501 ESCo - 1.1/2 child ticket - See Reg. Item 2502 ESCo - 3d Adult ticket - See Reg. Item 2503 Extract of an item titled "History of Ballarat Tramways", SEC Magazine, Feb. 1939 - See Reg. Item 2504 2d ESCo token (See other reg items 1794 and 1943 for details of this object) - sewn into page. 33 - Handwritten notes "Alfred Hall" 35 - Handwritten notes "Russell Square" 36, 37 - miscellaneous cuttings from the Courier for 1939 and 1940 39 - Newspaper cutting "South Street Band Contests" - cutting dated 27/10/1932. (See images - i5 to 41, 43, - ditto - contest results 44 - Photo of the Tramway Shelter in Sturt Street being removed - Courier dated 18/12/1923 - see Reg Item 2523. 45 - Extract of April 1938 from SEC Magazine, photos of the launch of the illuminated Ballarat Centenary tram - see Reg Item 2524. 47 - Newspaper cutting "Peeps into the Past" 48 - Listing of "Members of Returned Soldiers Band", Ballarat, dated 18/11/1919. 49 - Newspaper cutting "Ballarat, The Home of the Band Contests", dated 27/10/1932. 51 - Handwritten notes - "Tram Fares methods of collection" - See Reg. Item 2505. 53 - Newspaper cutting "100 years ago", Port Phillip Herald for 1840. 54 - Black and white photo of a gathering of people (tramway?) at the Showgrounds - See Reg. Item 2506 55 - Six black and white photos with handwritten notes ESCo 19 or 20 - See Reg. Item 2507 Group of ESCo employees by ESCo tram - See Reg. Item 2508 Photo of ESCo employee, Si Barker - See Reg. Item 2509 Photo of ESCo company bus - See Reg. Item 2510 (See also Reg Item 3813) Photo of No. 25 - Barkly St - See Reg. Item 2511 Photo of two ESCo employees - See Reg. Item 2512 56 - Loose newspaper cutting "San Francisco Struggle Buggies" - cable trams - The Age 15/3/1947 57 - Letter from Mr. Pringle of ESCo to Inspector James and Handwritten notes on ESCo management - See Reg. Item 2513 Handwritten notes on the token systems - See Reg. Item 2514 59 - Page titled "Bundy clocks and meters" but no notes 61 - Hand drawn map of Ballarat tramways with notes on tracks - horse, SEC and ESCo and loops - See Reg. Item 2515. 63 - Miscellaneous newspaper cuttings and photo of the Arch of Victory 64 - Photo of W. J.K. Dunstan ??? (has notes written on back, but difficult to read)* - Notes on rear of photo p64. "49 years in service W.J.K. Dunstan Office Manager Ballarat Branch Retired 18/3/46" 65 - Newspaper cutting "Old Victorian Schooldays, letters and reminiscences by past scholars". 67 - Newspaper cuttings - photo of Ballarat Choral Union and Urquhart St. school 69 - Newspaper cutting "Saint with a top hat" 71, 73 - Newspaper cutting "District Mining Disasters of By-Gone Days" - John Hargreaves 75 - Newspaper cutting "The Ballarat Courier" banners for 2/9/1939 - outbreak of World War Two - normal and a special edition. 77, 79 - Newspaper cutting "My Youth in Ballarat" - T.P. Long. 81 - Two photos and handwritten notes showing trams in Sturt St and the line up of horse trams - See Reg Item 2516. 83 - Newspaper cutting "Theatrical History - The Charlie Napier" - Speilvogel 85, 87 - Newspaper cutting "Story of the Eureka Stockade Monument" - Speilvogel 89 - Newspaper cutting "The Beginning of Buninyong" - Speilvogel 91 - Newspaper cutting "St. David's Day" 93, 95 - Newspaper cutting "From 1856 to 1894, Ballarat's Foremost Citizen Major (William Collard) Smith Recalled - J. Hargreaves. 97 - Newspaper cutting "All Electrical Exhibition / Ballarat's Electric Supply, its development" - 1936, See Reg. Item 2517. 98 - Loose photo of the ESCo Power station chimney and steeplejacks - See Reg. Item 2518. 98 - Loose sheet of paper about the origin of the ESCo trams - See Reg. Item 2525. 99 - Newspaper cutting - about Electricity in Ballarat and tramway services, and handwritten notes on ESCo Inspectors - See Reg. Item 2519 100, 101 - Newspaper cuttings - "Mr. Melbourne Day by Day" cartoon series and the artist's death notice dated 22/8/1939. 102 - Poster - Dana Street School Jubilee Re-union, has N. Speilvogel and H. James as joint secretaries. 103 - Newspaper cutting of various photos and a scene of a gold train at Bendigo 104 - Newspaper cuttings - Bob Menzies and Adolph Hitler and backs of Melbourne tram tickets - "School Boy Howlers". 105 - Letter in an envelope to H.P. James dated 11/10/1937, by a person about the building of the tram sheds at Wendouree - See Reg. Item 2520. Newspaper cutting of the opening of the tramway to Lydiard St. North from Gregory St. - See Reg. Item 2521 Loose item - 1/- SEC Tourist Ticket No. A2676 - See Reg. Item 2522.Many in pencil and inktrams, tramways, h.p. james, esco, horse trams, ballarat, civic history

In 1941, the scientific instrument manufacturing firms of  Henry Hughes & Son Ltd, London, England, and  Kelvin Bottomley & Baird Ltd, Glasgow, Scotland, came together to form Kelvin & Hughes Ltd. Kelvin Company History: The origins of the company lie in the highly successful and strictly informal relationship between William Thomson (1824-1907), Professor of Natural Philosophy at Glasgow University from 1846-1899 and James White, a Glasgow optical maker. James White (1824-1884) founded the firm of James White, an optical instrument maker in Glasgow in 1850 and was involved in supplying and mending apparatus for Thomson university laboratory and working with him on experimental constructions. White was declared bankrupt in August 1861 and released several months later. In 1870, White was largely responsible for equipping William Thomson laboratory in the new University premises at Gilmore hill. From 1876, he was producing accurate compasses for metal ships to Thomson design during this period and this became an important part of his business in the last years of his life. He was also involved in the production of sophisticated-sounding machinery that Thomson had designed to address problems encountered laying cables at sea, helping to make possible the first transatlantic cable connection. At the same time, he continued to make a whole range of more conventional instruments such as telescopes, microscopes and surveying equipment. White's association with Thomson continued until he died. After his death, his business continued under the same name, being administered by Matthew Edwards (until 1891 when he left to set up his own company. Thomson who became Sir William Thomson and then Baron Kelvin of Largs in 1892, continued to maintain his interest in the business after James White's death. In 1884 raising most of the capital needed to construct and equip new workshops in Cambridge Street, Glasgow. At these premises, the company continued to make the compass Thomson had designed during the 1870s and to supply it in some quantity, especially to the Admiralty. At the same time, the firm became increasingly involved in the design, production and sale of electrical apparatus. In 1899, Lord Kelvin resigned from his University chair and became, in 1900, a director in the newly formed limited liability company Kelvin & James White Ltd which had acquired the business of James White. At the same time Kelvin's nephew, James Thomson Bottomley (1845-1926), joined the firm. In 1904, a London branch office was opened which by 1915 had become known as Kelvin, White & Hutton Ltd. Kelvin & James White Ltd underwent a further change of name in 1913, becoming Kelvin Bottomley & Baird Ltd. Hughes Company History: Henry Hughes & Sons were founded in 1838 in London as a maker of chronographic and scientific instruments. The firm was incorporated as “Henry Hughes & Sons Ltd” in 1903. In 1923, the company produced its first recording echo sounder and in 1935 a controlling interest in the company was acquired by S Smith & Son Ltd resulting in the development and production of marine and aircraft instruments. Following the London office's destruction in the Blitz of 1941, a collaboration was entered into with Kelvin, Bottomley & Baird Ltd resulting in the establishing “Marine Instruments Ltd”. Following the formal amalgamation of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd in 1947 to form Kelvin & Hughes Ltd. Marine Instruments Ltd then acted as regional agents in the UK for Kelvin & Hughes Ltd who were essentially now a part of Smith's Industries Ltd founded in 1944 and the successors of S. Smith & Son Ltd. Kelvin & Hughes Ltd went on to develop various marine radar and echo sounders supplying the Ministry of Transport, and later the Ministry of Defence. The firm was liquidated in 1966 but the name was continued as Kelvin Hughes, a division of the Smiths Group. In 2002, Kelvin Hughes continues to produce and develop marine instruments for commercial and military. G. Falconer Company History: G Falconer (Hong Kong Ltd) appear to have had a retail presence in Hong Kong since 1885, according to the company website, and currently have a shop in the Peninsula Hotel. G Falconer was the Hong Kong selling agent for several British companies. Ross Ltd of 111 New Bond St London was one and the other was Kelvins Nautical Instruments. Falconers were primarily watchmakers, jewellers and diamond merchants.They were also agents for Admiralty Charts, Ross binoculars and telescopes, and sold English Silverware and High Class English Jewellery. In 1928 the company was operating from the Union Building opposite the Hong Kong general post office. It is unclear if the item is an original Sextant made by Kelvin prior to his amalgamation with Henry Hughes & Sons in 1941 as Kelvin appears to have only made compasses up to this date. If the Sextant can be established that it was made by Kelvin then it is very significant and a rare item made for and distributed through their Hong Kong selling agents G Falconer Ltd. There are many Sextants advertised for sale stating "Kelvin & Hughes 1917 model sextant". These can be regarded as replicas as the company was not formed until 1941 and production of marine instruments was not fully under way until after the war in 1947. Further investigation needs to be undertaken to accurately determine the provenance of this item. As the writer currently has the impression that the subject object was possibly made by Kelvin and Hughes in the mid to late 20th century or is a replica made by an unknown maker in the late 1970s. Purchased as an exhibition of marine navigational instruments for the Flagstaff Hill museum. The Sextant is a brass apparatus with filters and telescope lens, and comes with a wooden felt lined storage box. It is a doubly reflecting navigation instrument that measures the angular distance between two visible objects. The primary use of a sextant is to measure the angle between an astronomical object and the horizon for the purposes of celestial navigation.G Falconer and Co. Hong Kong (retailers of nautical equipmentflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sextant, kelvin & hughes ltd, hong kong, navigational instrument, g falconer, mariner's quadrants

Navigators use parallel rule with maps and charts for plotting a specific course on a chart. One long edge is used with the compass rose on the chart, aligning the centre of the rose with the desired direction around the edge of the rose. The compass bars are then ‘walked’ in and out across the map to the desired location so that lines can be plotted to represent the direction to be travelled. Kelvin Company History: The origins of the company lie in the highly successful and strictly informal relationship between William Thomson (1824-1907), Professor of Natural Philosophy at Glasgow University from 1846-1899 and James White, a Glasgow optical maker. James White (1824-1884) founded the firm of James White, an optical instrument maker in Glasgow in 1850 and was involved in supplying and mending apparatus for Thomson university laboratory and working with him on experimental constructions. White was declared bankrupt in August 1861 and released several months later. In 1870, White was largely responsible for equipping William Thomson laboratory in the new University premises at Gilmore hill. From 1876, he was producing accurate compasses for metal ships to Thomson design during this period and this became an important part of his business in the last years of his life. He was also involved in the production of sophisticated sounding machinery that Thomson had designed to address problems encountered laying cables at sea, helping to make possible the first transatlantic cable connection. At the same time, he continued to make a whole range of more conventional instruments such as telescopes, microscopes and surveying equipment. White's association with Thomson continued until he died. After his death, his business continued under the same name, being administered by Matthew Edwards until 1891 when he left to set up his own company. Thomson who became Sir William Thomson and then Baron Kelvin of Largs in 1892, continued to maintain his interest in the business after James White's death in 1884, raising most of the capital needed to construct and equip new workshops in Cambridge Street, Glasgow. At these premises, the company continued to make the compass Thomson had designed during the 1870s and to supply it in some quantity, especially to the Admiralty. At the same time, the firm became increasingly involved in the design, production and sale of electrical apparatus. In 1899, Lord Kelvin resigned from his University chair and became, in 1900, a director in the newly formed limited liability company Kelvin & James White Ltd which had acquired the business of James White. At the same time Kelvin's nephew, James Thomson Bottomley (1845-1926), joined the firm. In 1904, a London branch office was opened which by 1915 had become known as Kelvin, White & Hutton Ltd. Kelvin & James White Ltd underwent a further change of name in 1913, becoming Kelvin Bottomley & Baird Ltd. Hughes Company History: Henry Hughes & Sons were founded in 1838 in London as a maker of chronographic and scientific instruments. The firm was incorporated as “Henry Hughes & Sons Ltd” in 1903. In 1923, the company produced its first recording echo sounder and in 1935 a controlling interest in the company was acquired by S Smith & Son Ltd resulting in the development and production of marine and aircraft instruments. Following the London office's destruction in the Blitz of 1941, a collaboration was entered into with Kelvin, Bottomley & Baird Ltd resulting in the establishing “Marine Instruments Ltd”. Following the formal amalgamation of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd in 1947 to form Kelvin & Hughes Ltd. Marine Instruments Ltd then acted as regional agents in the UK for Kelvin & Hughes Ltd who were essentially now a part of Smith's Industries Ltd founded in 1944 and the successors of S Smith & Son Ltd. Kelvin & Hughes Ltd went on to develop various marine radar and echo sounders supplying the Ministry of Transport, and later the Ministry of Defence. The firm was liquidated in 1966 but the name was continued as Kelvin Hughes, a division of the Smiths Group. In 2002, Kelvin Hughes continues to produce and develop marine instruments for commercial and military. This model parallel map ruler is a good example of the commercial diversity of navigational instruments made by Kelvin & Hughes after World War II. It was made in numbers for use by shipping after the second world war and is not particularly rare or significant for it's type. Also it was made no earlier than 1947 as the firms of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd who took over from Smith & Sons were not amalgamated until 1947. It can therefor be assumed that this ruler was made during the company's transitional period to Kelvin & Hughes from Smith Industries Ltd.Brass parallel rule in wooden box with blue felt lining.Rule inscribed on front "Kelvin & Hughes Ltd" " Made in Great Britain"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, parallel rule, kelvin & hughes ltd, map ruler, plot direction, navigation, maps, echo sounder, kelvin & james white, lord kelvin, baron kelvin of largs, scientific instrument

A shock of different voltages was delivered to a person using the two metal handles or two heavy soft wire combs (missing but known of) were moved across the skin. Perhaps this was an early TENS Unit. The unit came to the donor's grandfather (Roy F. Leibig - Chief Electrical Inspector of the Brunswick (Melbourne) Electric Supply) for repair and returned to his keeping once it had become obsolete (upgraded by newer machine). Donor often helped his Pa repair electrical equipment.Historical: The Resuscitator or Electric Therapy Unit was used in hospitals, possibly Mental hospitals. Provenance: The donor worked at Mt Beauty in the Kiewa Hydro Electric Scheme with the State Electric Commission of Victoria as an electrician. Black wooden smooth box with clip fastener which is screwed on - 3 screws for the base and 2 for the lid. On top of the box is a leather strap for the handle fastened by steel screwed into the box. Inside: A mask with attached strap. Tap fitting loosely into steel box. Metal cylinders and a Cardboard box. A wooden lockable case, housing electrical equipment suitable for issuing high voltage shocks.In red, middle of the side with fastener - "SPARKLETS RESUSCITATOR" Scruff marks inside the lid. A cream plastic tag is screwed on and inscribed"Manufacturers:- / SPARKLETS LIMITED / EDMONTON, LONDON, N.18 / Made in ENGLANDmedical, hospital equipment, resuscitator, tawonga district hospital, doctor

This iron was used to press clothes prior to the spirit and electrical irons becoming available circa 1930s - 1950s. The main body of the iron was placed on a flat heated surface of a stove (wood, coal or gas fired). It was mainly used by women in their domestic role, ironing the family's clothes and linen. In the Kiewa Valley the supply of coal or gas was not available or too expensive than the locally cut hard wood trees. Ironing was time consuming as the iron had to be heated, used and then reheated to the required level of application. Kiewa Valley farmers' wives used these irons having heated their stoves with local timber from their farms. This iron is made of cast iron. The handle is a hollow cylinder and is 70 mm above the solid 30 mm base. Presumably the handle was wrapped and/or threaded with cloth to protect the hand from the heat of the iron. The iron would have been heated on the top of a stove.6 Metters KFB Victoriairon, laundry, domestic, antique, pressing clothes, household

This is a medallion awarded in 2000 by Powercor Warrnambool to Elmac Hydroponics. Powercor Australia, founded in 1994, is an electrical distribution company operating in the Western District of Victoria and the western suburbs of Melbourne. Powercor Warrnambool, like other Powercor organizations, is involved in giving Business Excellence Awards annually to businesses in its area of supply. In 2014 there were 15 awards for Business Excellence. Elmac Hydroponics was a business growing and supplying organically-produced tomatoes from 1997 to 2004. It was situated at Mount Pleasant, Princes Highway, Allansford, Victoria. The business was operated by Graeme and Barbara McLeod and Keith and Leonie Ellerton. Hydroponics is a system of growing plants without soil, using a nutrient solution. Elmac Hydroponics had a 2,000 square metre greenhouse with 10,000 growing points. This is a significant medallion, showing the award given to a small business in the Warrnambool area and indicating its achievements in the environmental area. Elmac was an industry leader in in implementing an ‘Autopot’ hydroponic system which is aimed at reducing nutrient and waste water to zero. Elmac was also a finalist in the Ericsson 2002 Innovation Awards.This is a gilt metal medallion, oval-shaped, with an ornamental edging and a shield-shaped design on one side and a circular design on the other. The top has two metal rings for attachment to a chain or wall hook. On one side: ‘Environmental Achievement, Elmac Hydroponics’ On obverse side: ‘Powercor Warrnambool Region Business Achievement Awards, 2000’ elmac hydroponics, powercor business awards, warrnambool

Printed in the U.K. Edited and printed by Ministry of Supply, Inspection of Electrical Mechanical Equipment, Aquila, Golf Road, Bromley, Kent65 year old handbook containing instructions on construction/completion building of Heavy Girder Bridge.Thin brown fount cover with 50 fawn color internal pages, A4 Crown Copyright reserved, W. O. Code No. 10436. Restricted The information given in this document is not to be communicated, either directly or indirectly, to the press or to any not authorized to receive it. Printed November 1955user handbook, heavy girder bridge - fixed spans

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.Black and white photograph of the Davey Paxman Experimental Steam Engine. On the brake is returned serviceman Norman WIlliam Ludbrook (Diploma Electrical Engineering, 1952). Far right is Roy E. Mawby (Diploma Electrical Engineering, 1950)steam engine, model steam engine, davey paxman, electrical engineering, laboratory, scientific instrument, norman ludbrook, norman william ludbrook, roay mawby, roy e. mawby

Electroconvulsive therapy (ECT) was invented in Italy in the late 1930s. ECT is a medical treatment most commonly used in patients with severe major depression or bipolar disorder that has not responded to other treatments. Psychiatrists had already discovered that inducing seizures could relieve symptoms of mental illness. Before ECT, this was done with the use of chemicals, usually one called Metrazol. More can be read here: http://theconversation.com/electroconvulsive-therapy-a-history-of-controversy-but-also-of-help-70938 This machine was used both at Aradale Mental Hospital and J Ward. The object is significant because it is a well preserved instrument that illustrates the medical apparatus used at both Ararat Mental Hospital and J Ward for the treatment of mental illness.A metal instrument. The front contains three knobs, two switches, and power button. Two fully intact electrical cords - One leads to the paddles used on the patient: One used to attach to the electric source [power point]. Paddles are made of hard plastic and stainless steel metal. The back has a compartment where the paddles can be stored. The top has a carry handle.Manufacturer: Siemens Power supply: 220V 85AC, 50Hzmentalhealth, psychiatrichealth, depression, #bipolardisorder

This particular lamp was made for the dinner table or "parlour". This was the most effective indoor lighting before electrical lighting was introduced in the 1940's. These table lights would have still been used after this time as emergency lighting during electrical power shortages (outages). These emergency lighting lamps, including candles, were eventually replaced by battery power. The Kiewa Valley was supplied by electricity well before many other rural regions due to the State Electricity Commission constructing the Kiewa Hydro Electricity power turbines (late 1930's to mid 1950's). Petrol and diesel generators were used in other rural regions before state wide electricity was available.The significance of this kerosene lamp to the Kiewa Valley is that it provides the proof that before the Hydro electricity scheme was established in the valley, householder and commerce relied on candle/kerosene power. Although at certain times before battery and solar energy became the night time lighters the sole source of lighting was candle power and kerosene power. The supply of both however was still required by most of the population by supply from city and larger country town suppliers. This nearly fully glass made table lamp(kerosene) has a large glass bowl/basin like kerosene storage unit with a glass circular finger handle (similar to a ordinary cup). Formed single star like patterns (50mm apart) encircle the centre of the bowl. On top of the bowl sits the metal (brass) wick holder with a small wheel protruding out one side for adjusting the wick length(increasing or decreasing the strength(regulating) of the amount of light projected. Four prongs rise from the circular base light fixture holding the windproof and refractive glass "pot belly" shield. lamp table, kerosene lamp, household lighting (non electrical)

The period when kerosene was extensively used for indoor lighting was before electrical reticulation was installed in rural areas. In remote areas this was up to the mid 1900's. The kerosene lantern however was still in use, for camping and outdoor activities, well beyond this period and was eventually replaced by LPG and battery powered lighting. The transition phase to "modern" outdoor and domestic lighting lingered on the rural areas where the electrical reticulation suffered from reliable constant supply.In the Kiewa Valley, being a rural region, had reliable electrical domestic and farm supply only after the Kiewa Hydro Electricity Scheme had been fully operational. The supply was relative to how close the homestead was to the major electricity substation. This kerosene lamp was in use during the period when it was the only reliable source of domestic night time lighting. The strength of refractive light produced by this lantern/lamp hinged upon the size of the lamp(wick and glass bowl). The small size of this lamp suggests that it was for use in a small room(children's bedroom) or as providing a light for a safe walk to the outside ablutions (toilet) area. This small kerosene lamp has an enclosed "cup" body which would have contained the kerosene fuel. The top wick holder, made from brass, has an extended enclosed spout which raises the wick approximately 20mm from the bottom of the holder. The wick holder screws into the the top of the kerosene reservoir bowl and has a wick adjustment screw (light control) at one side. The small white glass light reflector bulb nestles securely onto the wick holder and is kept snug by snap designed extending "fingers". The section between the bottom of the refractive glass "light" bowl and the top of the kerosene bowl has perforations to allow air passage to feed directly to the wick.The light refracting bulb is open at the top to allow heat and smoke from the burning wick to escape upwards.On the wick control screw "CWB BRITISH MADE"kerosene reading lamp, domestic lighting, bedside light

This meat mincer was born in a period where hand operated mincing and blending machines were only available for household mincing meats and blending ingredients up to the 1960's. Electrical kitchen based whitegoods were rare in areas where the connection to electricity was intermittent or not at all.This kitchen aid is a very significant item in the Kiewa Valley before suitable electrically operated mincers became available and constant reliable electrical connections were installed. The Kiewa Hydro Electricity Scheme provide the stable supply of electricity which made most of the hand operated mincing machines obsolete. However large mincers for bulk supplies were still required eg. kitchens for SEC workers during the 50's and 60's.This heavy industrial type meat mincer(cast iron) has a top "rounded feeder cup" with a mincer screw blade at the bottom. A winder handle rotates the screw like mechanism to mince and express solid pieces of meat at the other end. There is a clamp below the main structure which permits the fastening of the hand driven mincer to a table or solid ledge. The hand grip of the handle is made from wood and fashioned like a clothes peg.On the rounded feeder bowl "MAJOR" and on the winder handle "A POPE PRODUCT"hand operated meat mincers, meat grinders, kitchen utensils

This Timing Relay is quite a large (industrial type) apparatus. The Timer is started by having a voltage of 250 volts direct current (as supplied by batteries). A DC motor then rotates driving into a clockwork mechanism, the output of which is an arm rotating at the same speed as a minute hand on a clock. Attached to this arm is a mercury switch which tips and makes an electrical circuit operate in a sequence control system. The sequences that use these timers are when starting and stopping Hydro Generators. They check that the machine has connected to the power system grid before 20 minutes duration. Brakes must go on for a set time when shutting down a generator slowing at the right speed as measured by this apparatus. These generators are powered by the hydro force of "stored" water at a higher altitude. The establishment of both the NSW and Victorian Hydro schemes was achieved from the mid 1900's to the 1960's. At this point in time the need for additional power sources to quench both an industrial and domestic demand for electricity was purely an economic and not and environmental (carbon reduction) factor. This Timing Relay apparatus is very significant to the Kiewa Valley as its use was introduced during the Kiewa Hydro Scheme. Although only a relay apparatus, it was however part of the explosion of human resources into the valley. This influx of population transformed the region from that of a basically quiet rural region to one which evolved into both an industrial and a larger residential community. This evolution in the valley created a change, not only in the "physical" landscape but also the socio-economic expansion which permitted other "tourist" based industries into the valley. This Hydro Scheme was instigated by "the Government of the day" as a bold move and was the major force behind the acceptance of World War II refugee and "technical" workforce. Inclusion of skilled and unskilled migration into the Australian environment was of a higher priority than a selective quota system of later years.. Although this mass "invasion" of workers with families was thought of in some circles as intrusive, the expansion of population post war years and its integration into the Australian rural sector, produced the multi- lingual, multi-cultural diversity of later years.sec vic kiewa hydro scheme, alternate energy supplies, alpine population growth

This tester was used between 1950 and 1980's. As part of the Occupation, Health and Safety requirements, equipment used to monitor the performance of electricity producing generators, regularly, hand held testers were used to check the insulation and the "earth" pin were up the the required operational levels. As the generators and their ancillary monitoring equipment was spread over a large area and cumbersome to service small hand held devices were required. These had to always be safe for the user to operate. A selected range of high quality meters were recalibrated every two years in the Meter and Calibration Laboratory at Yarraville(near Melbourne) This meter is very significant to The Kiewa Hydro Electricity Scheme because it was an integral part of maintaining the electricity producing water driven generators of the power stations. The reason why this meter was so essential is that provided the safety check on equipment used to monitor each Hydro Generator that they were complying within the grid network parameters. Grid parameters are set so that if there is an electrical fault on the system, that fault can be attended to with a very small change in the output stability of each generator. It is essential that the voltage of the network remain within the set limits. Generators are at Dartmouth, Mackay, Clover, West Kiewa, Yarrawonga, Cain Curran and three Power Stations in the Thornton area.This hand driven current generator produces 500 volts by winding the handle(on funnel curved side) to keep the voltage constant(one minute per test). The whole body is made from caste aluminium. One of the functions of this meter is to test the isolation resistance of any equipment being tested. This is to see if that equipment is safe to handle(no electrical shocks). The second function is to test the earth pin of any portable electrical equipment. The turn key on one side can direct which function is required(marked insulation or continuity). On the top side(enclosed in a glass fronted marked scale) is a continuity scale(top) and an insulation scale(bottom). This is covered , when not in use by "flip up" lid with manufacturer's details and name of the instrument. Opposite the winder are two screw tight knobs. One marked earth(left side) and one marked line(right side). On the top and next to the glass windowed scales in a post manufacture SEC Vic equipment equipment ID number. For carrying purposes there is chromed steel (fold together) handle.The bottom of the unit has two metal "feet" 150mm long by 114mm wideManufacturer's details on top side "MEG" underneath "INSULATION AND CONTINUITY TESTER" below this "constant 500 VOLT pressure" below this "REGISTERED MEG MEGGER TRADE MARK" below this "REG DESIGN NO. 690326" below this "UNITED KINGDOM PATENT Nos. 193746, 197178, 198182, 202062, 202398, 204649, 350715" below this "SUPPLIED BY THE GENERAL ELECTRIC Co. Ltd OF ENGLAND" below this "MAGNET HOUSE, KINGSWAY LONDON W.C.2" 'sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall

This testing voltmeter recorder was last certified by SEC Vic laboratories on the 17/4/77. It was used extensively as mobile recorder placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. It can also be the result of defective wiring and overloading at peek operational times (milking machines).This mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.The mechanism of this voltage recorder has been installed(by the manufacturer) into its own protective wooden box. This box has a front (swing open) lockable section which permits direct access to the installed measuring equipment (for servicing and data collection). The top section of the box has two screw on terminals for access to the machine being tested. This tester has its own inbuilt ink supply facilities and a mechanical clockwork device that unwinds a roll of paper onto a second roll at a rate of 10 mm per hour. The recording chart is marked with time slots against voltage. There is a recording arm which has an ink pen at the end. Both arm and pen carry the ink supply from the ink reservoir, located on the left side of the cabinet door in specially constructed bottle holder( three small bottle capacity). To record a suspect power problem to a home or business establishment the voltmeter is connected to a power supply outlet being tested and wind the recording clockwork mechanism (gives a four week running time). Before leaving the recorder in situ the electrician checks to see if the chart is recording the correct voltage and that the clock mechanism is advancing correctly.On the front of the access "door" at the top a metal label "RECORDING AMMETER" below this "MURDAY SYSTEM" below this "ALTERNATING CURRENT" and below this the manufacturer's registered number "No. 139156" Below this is a metal tag with State Electricity Commission of Victoria Electrical Engineer's Section equipment number "338" Below these tags and above the viewing window is the manufacturer's dtails "EVERSHED & VIGNOLES Led LONDON"sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall, power outages

This case is for a testing voltmeter recorder. The last time it was certified by SEC Vic laboratories on the 17/4/77. It was used extensively in the transportation of the mobile recorder which was sometimes placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. See KVHS 0302 (A) for the instrument.This case for a mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.This heavy and thick all leather case for the "easy" transportation of the Volt meter recorder has a opening top which pop riveted to the main body(rivets are aluminium). The all leather top has a shaped carrying handle which is also riveted on. There are two straps on the side of the top which can be fastened to the main body by metal "shoe" buckles. The bottom end is secured to the main bag by large rivets.Tick grade stitching is on all corners.Nilsec vic kiewa hydro scheme, alternate energy supplies, alpine growth in electricity consumption

Historically this item was used before the spirit and the electrical iron took over Circa 1930s -1950s. The main body of the iron was placed on a flat heated surface of a stove (wood, coal or gas fired). It was mainly used by women in their domestic role, ironing the family clothes and linen. In the Kiewa Valley the supply of coal or gas was not available or too expensive than the locally cut hard wood trees. This particular iron was an improvement on the fixed handled iron because it allowed (by use of its easily detachable handle) to use multiple bases and thereby allowing a constant heat supply to be maintained and not having to waste time for a base to reheat to the required level of application.The significance of this item was that it allowed for a faster method of ironing clothes and linen. It's invention was a progress towards reducing the time it took to undertake a very labour and intensive domestic function. The reduction of time taken for this household duty provided women great flexibility to undertake other activities. These type of improvements to basic domestic tasks liberated housewives not only physically but also mentally from the isolation of the home environment.This flat iron has a removable, clip-on handle. The handle and its release knob are of wood. The base of the handle together with the heavy flat body are made of cast iron. The body of the iron is oval shaped tapered at each end and is 40mm thick.Underneath the handle frame and on the main body, on one side, in raised lettering is "Mrs Potts" and on the other side "Iron". Both are clearly visible when viewed from an aerial position. Under removable handle and on a plate (screwed onto the main body) is "No 2"iron, antique, household, pressing clothes, domestic, laundry

This item appears to be a calendar which was in use for a multiple clientele office e.g. post office, commercial office or bank, school or educational administration area, small government office or hospital administration in the Kiewa Valley or its region. The time this item was first used, electrical or battery powered desk and office calendars did not exist for semi isolated rural regions. These type of perpetual calendars not only looked impressive but were not affected by power shortages. This was a time when not all of Victoria was adequately supplied by power. This item is quite relevant to the Kiewa Valley as it demonstrates that the time before the Hydro electricity generators where built (Mount Beauty to Falls Creek), power supplies were not keeping up to the ever increasing demand from city and rural customers. This item was in a period before mass produced automated date and time pieces were available and hand operated date and time pieces were both in a social and commercial sphere a necessity.Wooden box (varnished) with three openings (on the front) detailing ,the day(Monday to Sunday), the date (1st to 31st) and the month (January to December). On the right side of the calendar box are two winding screws (RHS 6 steel) for each opening. These permit the scrolling of the information i.e. day, number and month. This ability results in a desk calendar which is perpetual. On the back there is a steel (screwed on) hanger with a slot for wall screw.perpetual calendar, office calendars, desk calendars, desk furniture

This journal detailing the author and friends walks and observations together with black and white photographs of the Kiewa Valley and the Bogong high plains regions during various "walks during the years 1945 to 1948. These walks were undertaken during the various Hydro - electricity generating plants and infra structures were being installed. It relays how the walker and adventurer enjoyed the pristine Alpine regions of Victoria. The wilderness and higher sense of adventure encountered by the author and his "walking party" is now no longer that intense. The isolation of the region was, at that time, still a barrier for the casual adventurer and required a dedication of the "pioneer" mountain walker.The significance of this journal is that both the photographs and accounts of those intrepid adventurers walking throughout the Victorian Alps and the Bogong High Plains details the countryside in one of the remaining years of relative pristine and minimal "tourist" developed regions of rural Victorian. The necessity of greater electrical power supply to the rapidly growing demand from cities and larger towns, post World War II immigration, had resulted in drastic changes to the infrastructure of the Victorian Alpine regions and particularly the Kiewa Valley. The photographs and the written accounts of the "adventurers" in this journal presents the last phases of the " Australian rough outback environment" and also the typical "bush wise" city/town dweller that although lived in towns and cities still had the adventurers heart of their fore fathers.This item has been photocopied by the author of his journal, consisting 27 pages of A4 size paper. A covering letter by the author is at the front of this loose leafed journal. The journal is bound in a yellow plastic cover with spirals. At the back is a 2 page biography of Myrtle Emily (Grigg) Deamer 1922-2006, then a photo of Meg with baby Bryn and son Tony followed by a letter from David BottomleyThe author's correspondence and covering letter has his signature "D Bottomley"alpine country, bush walking, bogong mountain, alpine adventures

The 1950's saw a revolution in small appliances for use in the average household. This hand held self heating(kerosene) iron was introduced as a time saving and more convenient iron for pressing clothes and other cloth fabrics. It replaced irons needing a separate fire source to heat the ironing plate. These irons continued to be in service, even when electricity was available in cities and larger rural towns (domestic electric steam irons were invented in 1938). This item was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation.In the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing remained for an extended period covering the 1960s to 1970s. Kerosene products, such as this kerosene iron was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival and the ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This Coleman kerosene iron has a solid steel chrome plated(press) base with a painted (blue) wooden handle. The handle is stud fastened onto an oblong shaped rolled steel handle frame and screwed (two screws) onto the base plate. Both the heating plate and the top securing plate are shaped similar to a river boat. The main housing enclosing the heating element is enamel coated(blue in colour) steel and has a half hole for lighting the kerosene at the rear end. Behind the handle and protruding upwards is a stainless steel fully enclosed container (bowl shaped) for the main supply of kerosene to the burner or generator(enclosed within the main body of the iron. The bowl has an air valve and inlet for pressurised air intake (hand pump) On the bottom rear of the fuel bowl there is a screw regulated fuel pump. The fuel heated base plate provides the heat for this advertised "self heating iron(instant lighting). See KVHS 0347B- Instruction sheet; KVHS 0347C- Wrench; and KVHS 0347D Fuel can.Stamped on the base plate of the handle, front region "COLEMAN LAMP & STOVE CO." below this "WICHITA KAN" below this"TORONTO CAN". In the middle of the handle base and in larger print "COLEMAN Instant-Lite" At the rear location in large print "MODEL 4" in smaller print below "MADE IN U.S.A." below this "PAT#1718473"household appliances, alternative non electrical ironing appliances, domestic appliances, kerosene appliances

The 1950's saw a revolution in small appliances for use in the average household. This hand held wrench was provided exclusively for the Coleman self heating kerosene (KVHS 0347A) iron and used for the regular changing the kerosene used in it. The iron was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation. Kerosene supplies were cheaper than electricity but also more inconvenient than electric. Electrical appliances become cheaper to buy and maintain in the later part of the 1900's and the now older kerosene iron was faded out.This wrench was required to open the fuel container which stored kerosene in the Coleman hand iron(see KVHS 0347A). This item was part of the maintenance requirement of this particular hand iron. In the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing remained for an extended period covering the 1960s to 1970s. Kerosene products, such as this kerosene iron was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival(use of this wrench was a part of rural life). The ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This item is a flat cast iron wrench, which has been specifically made for KVHS 0347A (kerosene iron). The wrench has four specific forms cut into the steel which fit firmly around their targeted nut and other fixtures. Also see See KVHS 0347B- Instruction sheet; and KVHS 0347D Fuel can.ironing, iron maintenance tool, domestic appliances, household

The 1950's saw a revolution in small appliances for use in the average household. The hand held self heating(kerosene) iron for which this filling can was provided ,was introduced as a time saving and more convenient iron for pressing clothes and other cloth fabrics. It replaced irons needing an external fire source to heat the ironing plate. These irons continued to be in service, even when electricity was available in cities and larger rural towns. This item was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation and the ability to service them from this filling can was an essential part.n the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing appliances remained for an extended period covering the 1960s to 1970s. Kerosene products, such as the kerosene self heating (KVHS 0347A) iron and this kerosene filling item, was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival and the ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This specially spout fitted can was provided with the Coleman self heating kerosene iron (see KVHS 0347A). On one side of the half enclosed top of the can there is a small spout(for poring the appropriate liquid into the egg shaped fount container) at the rear end of the hand iron. The can is made from tin. See KVHS 0347B- Instruction sheet; KVHS 0347C- Wrench.On one side of the can in black print on yellow background is "FUEL MEASURING CAN" underneath is "For Coleman Instant-Lite Iron" underneath are four numbered paragraphs detailing the use of this can. Below this is the name and places of manufacture. On the other side of the can is printed "BE SURE" with filling and maintenance instructionskerosene can, ironing, domestic appliances, household appliances

Multi-fold brochure advertising public auction of one-acre, 2-acre, 5-acre and 8-acre allotments in Ringwood and Bayswater on Saturday 12th April, 1919. Brochure includes terms of sale, description of subdivision features and local facilities, and photographic images of the area.Subdivison includes Canterbury Road Heathmont, Armstrong Road Heathmont, Armstrong Road Bayswater, Bungalook Road Heathmont, Bungalook Road Bayswater, and Orchard Road Bayswater. Road shown as Bayswater Road to Bayswater became Mountain Highway Bayswater. Vendor: H.E.B.Armstrong, Auctioneers: Coghill & Haughton, 79 Swanston Street Melbourne, Telephone Central 2793, in conjunction with J.B. McAlpin, Ringwood, Opposite Station, Telephone Ringwood 7. (Map) Woodcock & McCormack, Civil Engineers Architects & Surveyors, 430 Little Collins Street, Melbourne, Phone 3241 Central. MOST OF THE MONEY COMES OUT OF THE LAND. And more money can be obtained from anb acre of fruit than from an acre of any other produce. But you do not have to grow fruit on Garden Farms Estate. You can go in for - Outer Suburban Home - Market Garden - Orchard - Pig Raising - Poultry Farm - Small Dairy Farm - Small Fruits - Floral Culture - Scent and Bee Farm - Or just for a Week-end Home. RINGWOOD - THE PLACE TO LIVE. The Beautiful Ringwood District has so many natural attractions, that half a Land Agent's work is done in just showing a prospective buyer round and about. Ringwood has a pull of its own that attracts folk, proved beyond doubt by its rapid development within the last decade (spite the war). First, it is high and healthy, picturesque and undulating, convenient of access, sufficiently close to the Metropolis for City and Business folk to live at Ringwood. Its development is solid, because most of its people are industrious husbandmen, real producers, who have turned idle hills into smiling gardens. These are the kind of real people to live amongst; ones who wear out their spades. The rapidly-developing town has excellent Stores, Trade and Repair Shops Churches, Banks, Telephone Exchange, Weekly General Market, Cool Stores, and good Private and State Schools, etc.; is Electrically lit, has Metropolitan Water Supply, and generally provides so that practically all shopping can be done locally. WHY RINGWOOD MUST GROW. Ringwood is a great centre and must be a greater. Two rapidly-developing railways junction here. The passengers from Ringwood Station cityward, in one year, number 250,000. Ringwood will be the terminus of the Outer Suburban Electric Eastern Railway. Its natural boundaries are the River Yarra on the North, Dandenong Creek on the South, the popular town of Croydon on the East, and the suburb of Mitcham on the West. This is a large territory that is steadily being converted from intense culture, and then it might be called (as regards its gardens) "The Devon Territory of Victoria." ARMSTRONG ROAD. This new road traverses Garden Farms Estate from its northern boundary on the main Canterbury Road, across Dandenong Creek, to its southern boundary on the main Bayswater Road, and will provide a long-desired additional link of communication between Bayswater and Ringwood. The 1-acre building sites on Bayswater Road are within 8 minutes' walk of the Bayswater Railway Station, and the Canterbury Road frontages are only 1-1/2 miles from Ringwood Station, and 1/2 mile from the Railway Station site of Canterbury Road; therefore, the whole Estate is easy of access and there should be a large demand for land so favourably placed. (Image) Cultivation Field - Potatoes on Lot 28 (Image) Picture of Bayswater Creek Flats. (Image) View from "Korumbeen" where Mr. Armstrong lived on Garden Farms Estate. Estate outlined in white ring. (Image) Site of New Bridge over Dandenong Creek. (Image) On one of the timbered lots adjoining railway. (Image) This Dandenong Creek traveres the Estate. (Image) Main Fern Tree Gully Line bisects the Estate.

This unit was designed and manufactured in a factory where many local people of Bacchus Marsh worked. Ref. Historical Notes-Significance Assessment Study ( October 2008)Bakelite tabletop radio,small box,camel-coloured leatherette covered,glass front,three dials,electrical cord,4 vlave reflex super heterodyne, cord attached, incription on set reads "MARSHMAN MUSIC MASTER".Maker's mark in blue print "MARSHMAN MUSIC MASTER" (Inscription on the central area of the glass front of the unit) "BROADCAST" is printed in cream twice in the area of the radio Frequency Band listings.electrical, , bacchus marsh, bakelite, radiogram, bob butler, post war invention, leatherette, technology, 1950 s, small scale radio, heterodyne, cabinet radio, arbee supply c0, civilian radio, manufacturer s drawings, wiring layout, console model

Alfred Donald Senior studied Electrical Engineering at the Ballarat Schoo of Mines (SMB) between 1927-33. He worked as an Instructor in Electric Welding at SMB between 1932 and 1967 receiving a certificate of Electrical Engineering, and greatly enjoyed his association with SMB as a student and instructor. Senior was an A. Grade Electrical Mechanic (A.M.I.E.I.s Vic and NSW) and was employed at the SEC Elec. Supply Co of Vic 1927-1970. He became Chief Electrical Inspector for the Mid-Western region.Hand embroidered pocket, framed in timber behind glass. The blazer pocket belonged to A.D. Senior who studied Electical Engineering at the Ballarat School of Mines from 1927 to 1933. from 1927 to 1933.On back of frame: "Mr A.D. Senior. Electrical Engineering student 1927-33. Instructor in Electric Welding 1932 - 67. C.E.E. SMB. A. Grade Elec. Mecahnic. A.M.I.E.I.s Vic and NSW. A very pleasant association during these periods. SEC Elec. Supply Co of Vic 1927-1970. C/o D.C. to A.C. and replaced many engines with elec. motors. Chief Electrical Inspector Mid-Western region.embroidery, ballarat school of mines, a d senior, coat of arms

Duncan McDougall was associated with the pioneering X-rays conducted by the Ballarat School of Mines in 1896. He was in the Mendelssohn Choir, and was associated with Professor Ross from University of Western Australia. The Ballarat Courier reported on 20 July 1896:"The Ballarat Courier reported on 20 July 1896 Thanks to the energy of the staff of the School of Mines Ballarat and particularly to Messers F J Martell and Duncan McDougall the assistance of Roentgen xrays will soon be available, for the relief of suffering at this institution. On Wednesday evening 22 July 1896 a number of ladies and gentlemen witnessed a series of experiments with the Roentgen x rays." Duncan McDougall later worked at the Kalgoorlie School of Mines as a lecturer in physics and mathematics. on 19 February 1905 the 'West australian' newspaper announced: " Mr Duncan McDougall, formerly of the Ballarat, and later of the Maryborough Schools of Mines, was appointed to succeed Mr. Hart. Mr. McDougall had also charge of the branch class at Midland Junction. In both cases his work proved thoroughly good. The alterations in the trades class regulations will cause all the students in these classes to take up the study of this subject. I have every confidence that Mr. McDou gall will handle these large classes as successfully as the classes he had last year." By 1925 McDougall is being reported in the Perth Daily News: "Duncan McDougall, lecturer on electrical engineering and physics at the W.A. School of Mines, put forward a scheme for reducing the cost of mining in Kalgoorlie. He contended it was the duty of the State and Federal Governments to establish a central electricity generation plant in Kalgoorlie and supply power to the mines at not more than 1/2d a unit, at 3/4d per unit for winding only, and at 2d per unit for lighting. He suggested, the transmission of this power over a radius of 25 miles from Kalgoorlie." (06 May 1925)Photograph of a man in a shirt, bow tie and jacket, holding a scroll and wearing glasses. He has two books beside him on a table. The man is Duncan McDougall, and is portrait was taken in the Charlie Farr studio at Maryborough, Victoriaduncan mcdougall, mcdougall, x-ray, xray, xray, ballarat school of mines, choir, mendelssohn, kalgoorlie